Input Example

Input Parameters

10.4 DLT-BULKROLL-<STM_TYPE>

(Cisco ONS 15310-MA SDH and Cisco ONS 15454 SDH) The Delete Bulkroll for STM4, STM64, STM1, or STM16 (DLT-BULKROLL-STM_TYPE) command deletes an attempted bulk rolling operation of a facility or completes an attempted rolling operation. This command is used for bulk line level rolling. Use DLT-ROLL-<MOD_PATH> for single path level rolling. See Table 27-1 for supported modifiers by platform.

Usage Guidelines

For the one-way cross-connections, the AIDs must be in the same order as originally entered; for the two-way cross-connections, either order will work.

This command does not support deleting multiple VC cross-connections.

Using “&” in the AID field of this command can delete a subnetwork connection protection (SNCP) virtual container (VC) cross-connection.

– The following command is used to delete a one-way selector or two-way selector and bridge with:

from points: F1, F2

to point: T1

DLT-CRS-{VC_PATH}:[<TID>]:F1&F2,T1:<CTAG>;

– The following command is used to delete a one-way bridge or two-way selector and bridge with:

from point: F1

to points: T1, T2

DLT-CRS-{VC_PATH}:[<TID>]:F1,T1&T2:<CTAG>;

– The following command is used to delete a one-way or two-way subtending SNCP connection with:

from points: F1, F2

to points: T1, T2

DLT-CRS-{VC_PATH}:[<TID>]:F1&F2,T1&T2:<CTAG>;

– The AID format in the deletion command is the same as the AID format in the retrieved response message. For example, if the output of any retrieved AID is “F1&F2,T1:CCT,VC4”, the deletion command with the AID format F1&F2,T1 is required to delete this cross-connection.

– The following command is used to delete a SNCP IDRI (integrated dual-ring interconnect) cross-connection:

DLT-CRS-{VC_PATH}:[<TID>]:A&B,C&D:<CTAG>;

A–Path on Ring X to which traffic from Ring Y is bridged

B–Path on Ring X to which traffic from the same ring is bridged

C–Path on Ring Y to which traffic from Ring X is bridged

D–Path on Ring Y to which traffic from the same ring is bridged

A, B, C, and D have a positional meaning. Connection type 2WAYDC is used for SNCP IDRI cross-connections.

– The following command is used to delete an SNCP dual-ring interconnect (DRI) cross-connection:

DLT-CRS-{VC_PATH}:[<TID>]:A&B,C:<CTAG>;

A–Path on Ring X to which traffic from Ring Y is bridged

B–Path on Ring X to which traffic from the same ring is bridged

C–Traffic to and from Ring Y

A, B, and C have a positional meaning. Connection type 2WAYDC is used for SNCP DRI cross-connections.

All A&B AIDs in the TL1 cross-connection command are in the format of WorkingAID&ProtectAID.

You can experience some implementation behavior problems if additional drops have been added to the connection object.

The facility AID is only valid for slots holding the G1K-4 card.

The virtual facility AID (VFAC) is only valid on slots holding an ML-Series card.

CKTID is a string of ASCII characters. The maximum length of CKTID can be 48 characters. If the CKTID is EMPTY or NULL, the field will not appear.

The default values for all optional parameters are NE default values. These values might not be the current value for a parameter. Use a retrieve command to retrieve current values.

(Optional) Cross-connect ID. The default is Blank or None. String of ASCII characters. Maximum length is 48. If CKTID is empty or null, the CKTID field will not be displayed.

Y

Y

<CMDMDE>

(Optional) Command mode. Normal (NORM) mode is the default behavior for all commands but you can specify forced (FRCD) mode to force the system to override a state where the command would normally be denied. The FRCD mode of operation is applicable to delete a virtual concatenated (VCAT) member cross-connect in Unlocked-Enabled or Locked-Disabled, AutomaticInService service states.

Y

Y

FRCD

Force the system to override a state where the command would normally be denied.

Y

Y

NORM

Execute the command normally. Do not override any conditions that might make the command fail.

Y

Y

10.7 DLT-CRS-ETH

(Cisco ONS 15454SDH)

The Delete Cross-Connect Ethernet (DLT-CRS-ETH) command deletes a cross connection between the ethernet paths. Ethernet paths are specified by using their ethernet facilities AID and SVLAN.

Usage Guidelines

This command deletes an ethernet connection between two or more ethernet connection end points inside an ethernet port. Specify all the ethernet connection end points associated in order to identify a unique cross-connection inside the node.

Input Example

Input Parameters

The ALL aid is applicable for RTRV-only commands, basically the RTRV-rr type of commands.

Y

N

ETHID[-{1-12}]-{1-5,12-16}-{1-22}-1-{1-20}

Ethernet connection end point aid for GE-XP card.

Y

N

ETHID[-{1-12}]-{1-6,12-17}-{1-4}-1-{1-20}

Facility aid for 10GE-XP card.

Y

N

<CKTID>

Circuit identification parameter contains the Common Language Circuit ID or other alias of the circuit being provisioned. Default value is - "NULL"

Y

N

<CMDMDE>

Command Mode is used to force the system to execute a given irrespective of any standing conditions. Default value is -NORM

Y

N

FRCD

Force the system to override a state in which the command would normally be denied.

Y

N

NORM

Execute the command normally. Do not override any conditions that may make the command fail.

N

10.8 DLT-EQPT

(Cisco ONS 15310-MA SDH and Cisco ONS 15454 SDH) The Delete Equipment (DLT-EQPT) command deletes a card from the NE. This command removes the card type and attributes that were entered for a particular slot. If any facilities are assigned, they are also deleted.

The DLT-EQPT command also deletes a shelf that is no longer used. A shelf can only be deleted if there is no equipment present or if the equipment and its attributes are not in use and can be deleted as well. Only one REPT DBCHG on SHELF-{1-8} will be reported in the latter case. The node controller shelf (the shelf whose shelf ID is 1) cannot be deleted.

Usage Guidelines

The command will be denied if the card is part of a protection group or has a cross-connect endpoint. To delete a card that is part of a protection group, it has to be removed from the protection group first using the ED-EQPT command.

The error message SPLD (Equipment In Use) will be returned in the following conditions:

The card is in a protection group.

The card has a cross-connection, a data communications channel (DCC), a generic communications channel (GCC), an optical service channel (OSC), or a provisionable patchcord termination.

Category

Security

Input Format

Input Example

Input Parameters

10.15 DLT-LNK

(Cisco ONS 15454 SDH) The Delete Optical Link for OCH, OMS, or OTS (DLT-LNK) command deletes an optical link between two optical connection points. The optical link is specified by using the AIDs of the involved optical connection points.

Usage Guidelines

None

Category

DWDM

Security

Provisioning

Input Format

DLT-LNK:[<TID>]:<FROM>,<TO>:<CTAG>;

Input Example

DLT-LNK:PENNGROVE:BAND-6-1-TX,BAND-13-1-RX:114;

Input Parameters

<FROM>

The identifier at one end of the optical link from the AID “BAND” section.

<TO>

The identifier at the other end of the optical link from the AID “BAND” section.

10.16 DLT-LNKTERM

(Cisco ONS 15310-MA SDH and Cisco ONS 15454 SDH) The Delete a Provisionable Patchcord Termination (DLT-LNKTERM) command deletes a provisionable patchcord termination present on a node. All termination points of a link/provisionable patchcord have to be deleted for the link to be deleted fully.

Usage Guidelines

This command accepts multiple AIDs, but does not accept the ALL AID.

A suitable error message will be returned if the link termination does not exist.

Category

Provisionable Patchcords

Security

Provisioning

Input Format

DLT-LNKTERM:[<TID>]:<AID>:<CTAG>;

Input Example

DLT-LNKTERM::LNKTERM-1:CTAG;

Input Parameters

<AID>

Access identifier from the “LNKTERM” section. Indicates a link (provisionable patchcord) termination on the local node.

(Optional) The default is Blank or None. String of ASCII characters. Maximum length is 48. Circuit identification parameter contains the Common Language Circuit ID or other alias of the circuit being provisioned. Cannot contain blank spaces. CKTID is a string of ASCII characters. The maximum length of CKTID can be 48.

Y

N

<CMDMDE>

(Optional) Command mode. Normal (NORM) mode is the default behavior for all commands but you can specify forced (FRCD) mode to force the system to override a state where the command would normally be denied. The FRCD mode of operation is applicable to delete a virtual concatenated (VCAT) member cross-connect in Unlocked-Enabled or Locked-Disabled, AutomaticInService service states.

Y

N

FRCD

Force the system to override a state in which the command would normally be denied.

Y

N

NORM

Execute the command normally. Do not override any conditions that might make the command fail.

(Optional) Command mode. Normal (NORM) mode is the default behavior for all commands but you can specify forced (FRCD) mode to force the system to override a state where the command would normally be denied. The FRCD mode of operation is applicable to delete a virtual concatenated (VCAT) member cross-connect in Unlocked-Enabled or Locked-Disabled, AutomaticInService service states.

Y

N

FRCD

Force the system to override a state in which the command would normally be denied.

Y

N

NORM

Execute the command normally. Do not override any conditions that might make the command fail.

Source access identifier from the “FACILITY” section. AID for the facility that manages the data statistics.

Y

Y

<MONTYPE>

Monitored type. Type of RMON monitored data statistics. The parameter type is ALL_MONTYPE, which is the monitoring type list.

Y

Y

AISSP

Alarm Indication Signal Seconds — Path

Y

Y

ALL

All possible values

Y

Y

BBEP

SDH Background Block Errors Path

Y

Y

BBE-PM

OTN—Background Block Errors—Path Monitor Point

Y

Y

BBER

SDH Background Block Error Ratio

Y

Y

BBER-PM

OTN—Background Block Error Ratio—Path Monitor Point expressed as one tenth of a percentage

Y

Y

BBER-SM

OTN—Background Block Error Ratio—Section Monitor Point expressed as one tenth of a percentage

Y

Y

BBE-SM

OTN—Background Block Errors—Section Monitor Point

Y

Y

BIEC

FEC—Bit Errors Corrected

Y

Y

CGV

8B10B—Code Group Violations

Y

Y

CVCPP

Coding Violations—CP-Bit Path

Y

Y

ESL

Errored Seconds—Line

Y

Y

ESP

Errored Seconds—Path

Y

Y

ES-PM

OTN—Errored Seconds—Path Monitor Point

Y

Y

ESR

Errored Second—Ratio

Y

Y

ESR-PM

Errored Seconds Ratio—Path Monitor Point expressed as one tenth of a percentage

Y

Y

ESR-SM

Errored Seconds Ratio—Section Monitor Point expressed as one tenth of a percentage

Y

Y

ESS

Errored Seconds—Section

Y

Y

ES-SM

OTN—Errored Seconds—Section Monitor Point

Y

Y

ESV

Errored Seconds—VC Path

Y

Y

etherStatsBroadcastPkts

The total number of good packets received that were directed to a multicast address

Y

Y

etherStatsCollisions

Number of transmit packets that are collisions

Y

Y

etherStatsCRCAlignErrors

The total number of packets received that have a length (excluding framing bits, but including FCS octets) of between 64 and 1518 octets

Y

Y

etherStatsDropEvents

Number of received frames dropped at the port level

Y

Y

etherStatsFragments

The total number of packets received that were less than 64 octets

Y

Y

etherStatsJabbers

The total number of packets received that are longer than 1518 octets

Y

Y

etherStatsOctets

The total number of octets of data

Y

Y

etherStatsOversizePkts

The total number of packets received that are longer than 1518 octets

Y

Y

etherStatsPkts

The total number of packets (including bad packets, broadcast packets, and multicast packets) received

Y

Y

etherStatsUndersizePkts

The total number of packets received that are less than 64 octets

Y

Y

FCP

Failure Count—Line

Y

Y

FC-PM

OTN—Failure Count—Path Monitor Point

Y

Y

FC-SM

OTN—Failure Count—Section Monitor Point

Y

Y

HP-AR

Availability Ratio

Y

Y

HP-BBE

High-Order Path Background Block Error

Y

Y

HP-BBER

High-Order Path Background Block Error Ratio

Y

Y

HP-EB

High-Order Path Errored Block

Y

Y

HP-ES

High-Order Path Errored Second

Y

Y

HP-ESA

High-Order Path Errored Seconds–A

Y

Y

HP-ESB

High-Order Path Errored Seconds–B

Y

Y

HP-ESR

High-Order Path Errored Second Ratio

Y

Y

HP-FC

High-Order Path Failure Count

Y

Y

HP-NPJC-PDET

High-Order Path Negative Pointer Justification Count, Path Detected

Y

Y

HP-NPJC-PGEN

High-Order Path Negative Pointer Justification Count, Path Generated

Y

Y

HP-OI

High-Order path Outage Intensity

Y

Y

HP-PJCDIFF

High-Order Path Pointer Justification Count Difference

Y

Y

HP-PJCS-PDET

High-Order Path Pointer Justification Count, Path Detected

Y

Y

HP-PPJC-PDET

High-Order Path Positive Pointer Justification Count, Path Generated

Y

Y

HP-PPJC-PGEN

High-Order Path Positive Pointer Justification Count, Path Generated

Y

Y

HP-SEPI

The number of SEP events in available time

Y

Y

HP-SES

High-Order Path Severely Errored Seconds

Y

Y

HP-SESR

High-Order Path Severely Errored Second Ratio

Y

Y

HP-UAS

High-Order Path Unavailable Seconds

Y

Y

ifInBroadcastPkts

Number of broadcast packets received since the last counter reset

Y

Y

ifInDiscards

The number of inbound packets

Y

Y

ifInErrorBytePktss

Receive Error Byte

Y

Y

ifInErrors

The number of inbound packets (or transmission units) that contained errors

Y

Y

ifInFramingErrorPkts

Receive Framing Error

Y

Y

ifInJunkInterPkts

Receive Interpacket Junk

Y

Y

ifInMulticastPkts

Number of multicast packets received since the last counter reset

Y

Y

ifInOctets

Number of bytes transmitted since the last counter reset

Y

Y

ifInUcastPkts

Number of unicast packets received since the last counter reset

Y

Y

ifOutBroadcastPkts

Number of broadcast packets transmitted

Y

Y

ifOutDiscards

The number of outbound packets

Y

Y

ifOutErrors

The number of outbound packets (or transmission units) that could not be transmitted because of errors

Y

Y

ifOutMulticastPkts

Number of multicast packets transmitted

Y

Y

ifOutPayloadCrcErrors

Received payload cyclic redundancy check (CRC) errors

Y

Y

ifOutUcastPkts

Number of unicast packets transmitted

Y

Y

IOS

8B10B–Idle Ordered Sets

Y

Y

IPC

Invalid Packet Count

Y

Y

LBCL-AVG

Average Laser Bias current in micro A

Y

Y

LBCL-MAX

Maximum Laser Bias current in micro A

Y

Y

LBCL-MIN

Minimum Laser Bias current in micro A

Y

Y

LBCN

Normalized Laser Bias Current for STM1-8

Y

Y

LBCN-HWT

Laser bias current

Y

Y

LBCN-LWT

Laser bias current

Y

Y

LOSSL

Loss of Signal Seconds—Line

Y

Y

LP-BBE

Low-Order Path Background Block Error

Y

Y

LP-BBER

Low-Order Path Background Block Error Ratio

Y

Y

LP-EB

Low-Order Path Errored Block

Y

Y

LP-ES

Low-Order Path Errored Second

Y

Y

LP-ESA

Low-Order Path Errored Seconds–A

Y

Y

LP-ESB

Low-Order Path Errored Seconds–B

Y

Y

LP-ESR

Low-Order Path Errored Second Ratio

Y

Y

LP-FC

Low-Order Path Failure Count

Y

Y

LP-NPJC-DET

Low-Order Path Negative Pointer Justification Count, Detected

Y

Y

LP-NPJC-GEN

Low-Order Path Negative Pointer Justification Count, Generated

Y

Y

LP-PPJC-DET

Low-Order Path Positive Pointer Justification Count, Detected

Y

Y

LP-PPJC-GEN

Low Order path Positive Pointer Justification Count, Generated

Y

Y

LP-SEP

A sequence of between 3 to 9 consecutive severely errored seconds (SES)

Y

Y

LP-SEPI

Low-Order Path Severely Errored Period Intensity

Y

Y

LP-SES

Low-Order Path Severely Errored Seconds

Y

Y

LP-UAS

Low-Order Path Unavailable Seconds

Y

Y

MS-PSC

Protection switch count

Y

Y

MS-PSD

Protection switch duration

Y

Y

NIOS

8B10B—Non Idle Ordered Sets

Y

Y

NPJC-PDET

Negative Pointer Justification Count, Path Detected

Y

Y

NPJC-PGEN

Negative Pointer Justification Count, Path Generated

Y

Y

OPR-AVG

Average Receive Power in tenths of a microwatt

Y

Y

OPR-MAX

Maximum Receive Power in tenths of a microwatt

Y

Y

OPR-MIN

Minimum Receive Power in tenths of a microwatt

Y

Y

OPRN

Normalized Optical Receive Power for STM1-8

Y

Y

OPRN-MAX

Maximum value for OPRN

Y

Y

OPRN-MIN

Minimum value for OPRN

Y

Y

OPT-AVG

Average Transmit Power in tenths of a microwatt

Y

Y

OPT-MAX

Maximum Transmit Power in tenths of a microwatt

Y

Y

OPT-MIN

Minimum Transmit Power in tenths of a microwatt

Y

Y

OPTN

Normalized value for Optical Power Transmitted for STM1-8 card

Y

Y

OPTN-MAX

Maximum value for OPTN

Y

Y

OPTN-MIN

Minimum value for OPTN

Y

Y

OPWR-AVG

Optical Power—Average Interval Value in one tenth of dBm

Y

Y

OPWR-MAX

Optical Power—Maximum Interval Value in one tenth of dBm

Y

Y

OPWR-MIN

Optical Power—Minimum Interval Value in one tenth of dBm

Y

Y

PPJC-PDET

Positive Pointer Justification, Path Detected

Y

Y

PPJC-PGEN

Positive Pointer Justification, Path Detected

Y

Y

PSC

Protection Switching Count

Y

Y

PSC-R

Protection Switching Count—Ring

Y

Y

PSC-S

Protection Switching Count—Span

Y

Y

PSC-W

Protection Switching Count—Working

Y

Y

PSD

Protection Switching Duration

Y

Y

PSD-R

Protection Switching Duration—Ring

Y

Y

PSD-S

Protection Switching Duration—Span

Y

Y

PSD-W

Protection Switching Duration—Working

Y

Y

SASCPP

Severely Errored Framing/AIS Second—CP-Bit Path

Y

Y

SASP

Severely Errored Framing/AIS Seconds Path

Y

Y

SEFS

Severely Errored Framing Seconds

Y

Y

SESCPP

Severely Errored Second—CP-Bit Path

Y

Y

SESL

Severely Errored Second—Line

Y

Y

SESP

Severely Errored Second—Path

Y

Y

SES-PM

OTN—Severely Errored Second—Path

Y

Y

SESR

Severely Errored Second—Ratio

Y

Y

SESR-PM

OTN—Severely Errored Second Ratio—Path Monitor Point expressed as one tenth of a percentage

Y

Y

SESR-SM

OTN—Severely Errored Second Ratio—Section Monitor Point expressed as one tenth of a percentage

Y

Y

SESS

Severely Errored Second—Section

Y

Y

SES-SM

OTN—Severely Errored Second—Section Monitor Point

Y

Y

SESV

Severely Errored Second—VC Path

Y

Y

UASCPP

Unavailable Second—CP-Bit Path

Y

Y

UASL

Unavailable Second—Line

Y

Y

UASP

Unavailable Second—Path

Y

Y

UAS-PM

OTN—Unavailable Second—Path Monitor Point

Y

Y

UAS-SM

OTN—Unavailable Second—Section Monitor Point

Y

Y

UASV

Unavailable Second—VC Path

Y

Y

UNC-WORDS

FEC—Uncorrectable Words

Y

Y

VPC

Valid Packet Count

Y

Y

<INTVL>

The interval in seconds over which the data is sampled and compared with the rising and falling threshold. A valid value is any integer larger than or equal to 10 (seconds).

Y

Y

<RISE>

The rising threshold for the sampled statistics. A valid value is any integer.

Y

Y

<FALL>

The falling threshold. A valid value is any integer smaller than the rising threshold.

Y

Y

<SAMPLE>

(Optional) The method of calculating the value to be compared to the thresholds. The parameter type is SAMPLE_TYPE, which describes how the data will be calculated during the sampling period.

Y

Y

ABSOLUTE

Comparing directly.

Y

Y

DELTA

Comparing with the current value of the selected variable subtracted by the last sample.

Y

Y

<STARTUP>

(Optional) Dictates whether an event will generate if the first valid sample is greater than or equal to the rising threshold, less than or equal to the falling threshold, or both. The parameter type is STARTUP_TYPE, which indicates whether an event will be generated when the first valid sample is crossing the rising or falling threshold.

Y

Y

FALLING

Generates the event when the sample is smaller than or equal to the falling threshold.

Y

Y

RISING

Generates the event when the sample is greater than or equal to the rising threshold.

Y

Y

RISING-OR-FALLING

Generates the event when the sample is crossing the rising threshold, or the falling threshold.

Source access identifier from the “VC” section. It is one of the termination points (legs) of the existing cross-connection. If the existing cross-connection is one-way, the termination point (leg) should be the FROM-AID termination point. Otherwise, FROM is not significant. FROM and TO should be entered as they are entered in the ENT-CRS command. You can issue RTRV-CRS command, and use the response for FROM and TO parameters.

Y

Y

<TO>

Destination AID from the “VC” section. It is one of the termination points (legs) of the existing cross-connection. If the existing cross-connection is one-way, the termination point (leg) should be the TO-AID termination point. Otherwise, the TO is not significant. FROM and TO should be entered as they are entered in the ENT-CRS command. You can issue RTRV-CRS command, and use the response for FROM and TO parameters.

Y

Y

<WHY>

The reason for the deletion. The parameter type is WHY, which is the reason for the deletion.

Y

Y

END

Drop the leg to be rolled; the leg that is identified by the RFROM in the ENT-ROLL command.

Y

Y

STOP

The rolling operation will be deleted and reverted to the previous configuration.

10.37 DLT-USER-SECU

(Cisco ONS 15310-MA SDH and Cisco ONS 15454 SDH) The Delete User Security (DLT-USER-SECU) command deletes a user and can only be performed by a Superuser. Privilege levels are described in the ENT-USER-SECU command.

Usage Guidelines

This command cannot be used to delete a user that is currently logged on.

Syntax of the UID parameter is not checked. The user is deleted if the UID exists in the database.

Category

Security

Security

Superuser

Input Format

DLT-USER-SECU:[<TID>]:<UID>:<CTAG>;

Input Example

DLT-USER-SECU:PETALUMA:CISCO15:123;

Input Parameters

<UID>

User identifier. Can be up to 10 alphanumeric characters. UID is a string.

Source AID from the “FACILITY” section. ML-Series cards use the VFAC AID and FC_MR-4 cards use the FAC AID.

Y

Y

<CMDMDE>

(Optional) Command mode. Normal (NORM) mode is the default behavior for all commands but you can specify forced (FRCD) mode to force the system to override a state where the command would normally be denied. The FRCD mode of operation is applicable to delete a virtual concatenated (VCAT) member cross-connect in Unlocked-Enabled or Locked-Disabled, AutomaticInService service states.

Y

Y

FRCD

Force the system to override a state where the command would normally be denied.

Y

Y

NORM

Execute the command normally. Do not override any conditions that might make the command fail.

Y

Y

10.39 DLT-VLAN

(Cisco ONS 15310 MA SDH and Cisco ONS 15454 SDH) The Delete Virtual LAN (DLT-VLAN) command deletes a VLAN from the VLAN database. The VLAN database is a collection of VLANs used in a NE.

Usage Guidelines

If the AID is invalid, an IIAC (Invalid AID) error message is returned.

The ALL AID is invalid for this command.

Category

Ethernet

Security

Provisioning

Input Format

DLT-VLAN:[<TID>]:<AID>:<CTAG>[::::];

Input Example

DLT-VLAN:PETALUMA:VLAN-4096:1;

Input Parameters

<AID>

The AID is used to access the VLAN.

VLAN-{0-4096}

The AID used for a single VLAN. VLAN ID 0 is reserved for untagged VLANs.